2 * $Id: asic.c,v 1.21 2006-12-19 09:51:35 nkeynes Exp $
4 * Support for the miscellaneous ASIC functions (Primarily event multiplexing,
7 * Copyright (c) 2005 Nathan Keynes.
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
20 #define MODULE asic_module
28 #include "dreamcast.h"
29 #include "maple/maple.h"
30 #include "gdrom/ide.h"
36 * 1) Does changing the mask after event occurance result in the
37 * interrupt being delivered immediately?
38 * TODO: Logic diagram of ASIC event/interrupt logic.
40 * ... don't even get me started on the "EXTDMA" page, about which, apparently,
41 * practically nothing is publicly known...
44 static void asic_check_cleared_events( void );
45 static void asic_init( void );
46 static void asic_reset( void );
47 static void asic_save_state( FILE *f );
48 static int asic_load_state( FILE *f );
50 struct dreamcast_module asic_module = { "ASIC", asic_init, asic_reset, NULL, NULL,
51 NULL, asic_save_state, asic_load_state };
53 #define G2_BIT5_TICKS 8
54 #define G2_BIT4_TICKS 16
55 #define G2_BIT0_ON_TICKS 24
56 #define G2_BIT0_OFF_TICKS 24
58 struct asic_g2_state {
59 unsigned int last_update_time;
60 unsigned int bit5_off_timer;
61 unsigned int bit4_on_timer;
62 unsigned int bit4_off_timer;
63 unsigned int bit0_on_timer;
64 unsigned int bit0_off_timer;
67 static struct asic_g2_state g2_state;
69 static void asic_init( void )
71 register_io_region( &mmio_region_ASIC );
72 register_io_region( &mmio_region_EXTDMA );
76 static void asic_reset( void )
78 memset( &g2_state, 0, sizeof(g2_state) );
81 static void asic_save_state( FILE *f )
83 fwrite( &g2_state, sizeof(g2_state), 1, f );
86 static int asic_load_state( FILE *f )
88 if( fread( &g2_state, sizeof(g2_state), 1, f ) != 1 )
95 /* FIXME: Handle rollover */
96 void asic_g2_write_word()
98 g2_state.last_update_time = sh4r.icount;
99 g2_state.bit5_off_timer = sh4r.icount + G2_BIT5_TICKS;
100 if( g2_state.bit4_off_timer < sh4r.icount )
101 g2_state.bit4_on_timer = sh4r.icount + G2_BIT5_TICKS;
102 g2_state.bit4_off_timer = max(sh4r.icount,g2_state.bit4_off_timer) + G2_BIT4_TICKS;
103 if( g2_state.bit0_off_timer < sh4r.icount ) {
104 g2_state.bit0_on_timer = sh4r.icount + G2_BIT0_ON_TICKS;
105 g2_state.bit0_off_timer = g2_state.bit0_on_timer + G2_BIT0_OFF_TICKS;
107 g2_state.bit0_off_timer += G2_BIT0_OFF_TICKS;
109 MMIO_WRITE( ASIC, G2STATUS, MMIO_READ(ASIC, G2STATUS) | 0x20 );
112 static uint32_t g2_read_status()
114 if( sh4r.icount < g2_state.last_update_time ) {
116 if( g2_state.last_update_time < g2_state.bit5_off_timer )
117 g2_state.bit5_off_timer = 0;
118 if( g2_state.last_update_time < g2_state.bit4_off_timer )
119 g2_state.bit4_off_timer = 0;
120 if( g2_state.last_update_time < g2_state.bit4_on_timer )
121 g2_state.bit4_on_timer = 0;
122 if( g2_state.last_update_time < g2_state.bit0_off_timer )
123 g2_state.bit0_off_timer = 0;
124 if( g2_state.last_update_time < g2_state.bit0_on_timer )
125 g2_state.bit0_on_timer = 0;
127 uint32_t val = MMIO_READ( ASIC, G2STATUS );
128 if( g2_state.bit5_off_timer <= sh4r.icount )
130 if( g2_state.bit4_off_timer <= sh4r.icount ||
131 (sh4r.icount + G2_BIT5_TICKS) < g2_state.bit4_off_timer )
133 else if( g2_state.bit4_on_timer <= sh4r.icount )
135 if( g2_state.bit0_off_timer <= sh4r.icount )
137 else if( g2_state.bit0_on_timer <= sh4r.icount )
143 void asic_event( int event )
145 int offset = ((event&0x60)>>3);
146 int result = (MMIO_READ(ASIC, PIRQ0 + offset)) |= (1<<(event&0x1F));
148 if( result & MMIO_READ(ASIC, IRQA0 + offset) )
149 intc_raise_interrupt( INT_IRQ13 );
150 if( result & MMIO_READ(ASIC, IRQB0 + offset) )
151 intc_raise_interrupt( INT_IRQ11 );
152 if( result & MMIO_READ(ASIC, IRQC0 + offset) )
153 intc_raise_interrupt( INT_IRQ9 );
156 void asic_clear_event( int event ) {
157 int offset = ((event&0x60)>>3);
158 uint32_t result = MMIO_READ(ASIC, PIRQ0 + offset) & (~(1<<(event&0x1F)));
159 MMIO_WRITE( ASIC, PIRQ0 + offset, result );
161 asic_check_cleared_events();
164 void asic_check_cleared_events( )
166 int i, setA = 0, setB = 0, setC = 0;
168 for( i=0; i<3; i++ ) {
169 bits = MMIO_READ( ASIC, PIRQ0 + i );
170 setA |= (bits & MMIO_READ(ASIC, IRQA0 + i ));
171 setB |= (bits & MMIO_READ(ASIC, IRQB0 + i ));
172 setC |= (bits & MMIO_READ(ASIC, IRQC0 + i ));
175 intc_clear_interrupt( INT_IRQ13 );
177 intc_clear_interrupt( INT_IRQ11 );
179 intc_clear_interrupt( INT_IRQ9 );
183 void asic_ide_dma_transfer( )
185 if( MMIO_READ( EXTDMA, IDEDMACTL2 ) == 1 ) {
186 if( MMIO_READ( EXTDMA, IDEDMACTL1 ) == 1 ) {
187 MMIO_WRITE( EXTDMA, IDEDMATXSIZ, 0 );
189 uint32_t addr = MMIO_READ( EXTDMA, IDEDMASH4 );
190 uint32_t length = MMIO_READ( EXTDMA, IDEDMASIZ );
191 int dir = MMIO_READ( EXTDMA, IDEDMADIR );
193 uint32_t xfer = ide_read_data_dma( addr, length );
194 MMIO_WRITE( EXTDMA, IDEDMATXSIZ, xfer );
195 MMIO_WRITE( EXTDMA, IDEDMACTL2, 0 );
197 MMIO_WRITE( EXTDMA, IDEDMACTL2, 0 );
204 void mmio_region_ASIC_write( uint32_t reg, uint32_t val )
208 val = val & 0xFFFFFFFE; /* Prevent the IDE event from clearing */
212 /* Clear any interrupts */
213 MMIO_WRITE( ASIC, reg, MMIO_READ(ASIC, reg)&~val );
214 asic_check_cleared_events();
217 if( val == 0x7611 ) {
220 WARN( "Unknown value %08X written to SYSRESET port", val );
224 MMIO_WRITE( ASIC, reg, val );
226 uint32_t maple_addr = MMIO_READ( ASIC, MAPLE_DMA) &0x1FFFFFE0;
227 maple_handle_buffer( maple_addr );
228 MMIO_WRITE( ASIC, reg, 0 );
231 case PVRDMACTL: /* Initiate PVR DMA transfer */
232 MMIO_WRITE( ASIC, reg, val );
234 uint32_t dest_addr = MMIO_READ( ASIC, PVRDMADEST) &0x1FFFFFE0;
235 uint32_t count = MMIO_READ( ASIC, PVRDMACNT );
236 char *data = alloca( count );
237 uint32_t rcount = DMAC_get_buffer( 2, data, count );
238 if( rcount != count )
239 WARN( "PVR received %08X bytes from DMA, expected %08X", rcount, count );
240 mem_copy_to_sh4( dest_addr, data, rcount );
241 asic_event( EVENT_PVR_DMA );
242 MMIO_WRITE( ASIC, PVRDMACTL, 0 );
243 MMIO_WRITE( ASIC, PVRDMACNT, 0 );
246 case PVRDMADEST: case PVRDMACNT: case MAPLE_DMA:
247 MMIO_WRITE( ASIC, reg, val );
250 MMIO_WRITE( ASIC, reg, val );
254 int32_t mmio_region_ASIC_read( uint32_t reg )
276 val = MMIO_READ(ASIC, reg);
279 return g2_read_status();
281 val = MMIO_READ(ASIC, reg);
287 MMIO_REGION_WRITE_FN( EXTDMA, reg, val )
289 if( !idereg.interface_enabled && IS_IDE_REGISTER(reg) ) {
290 return; /* disabled */
294 case IDEALTSTATUS: /* Device control */
295 ide_write_control( val );
298 ide_write_data_pio( val );
301 if( ide_can_write_regs() )
302 idereg.feature = (uint8_t)val;
305 if( ide_can_write_regs() )
306 idereg.count = (uint8_t)val;
309 if( ide_can_write_regs() )
310 idereg.lba0 = (uint8_t)val;
313 if( ide_can_write_regs() )
314 idereg.lba1 = (uint8_t)val;
317 if( ide_can_write_regs() )
318 idereg.lba2 = (uint8_t)val;
321 if( ide_can_write_regs() )
322 idereg.device = (uint8_t)val;
325 if( ide_can_write_regs() || val == IDE_CMD_NOP ) {
326 ide_write_command( (uint8_t)val );
330 MMIO_WRITE( EXTDMA, reg, val );
332 MMIO_WRITE( EXTDMA, reg, val );
333 asic_ide_dma_transfer( );
336 if( val == 0x001FFFFF ) {
337 idereg.interface_enabled = TRUE;
338 /* Conventional wisdom says that this is necessary but not
339 * sufficient to enable the IDE interface.
341 } else if( val == 0x000042FE ) {
342 idereg.interface_enabled = FALSE;
345 MMIO_WRITE( EXTDMA, reg, val );
349 MMIO_REGION_READ_FN( EXTDMA, reg )
352 if( !idereg.interface_enabled && IS_IDE_REGISTER(reg) ) {
353 return 0xFFFFFFFF; /* disabled */
360 case IDEDATA: return ide_read_data_pio( );
361 case IDEFEAT: return idereg.error;
362 case IDECOUNT:return idereg.count;
363 case IDELBA0: return idereg.disc;
364 case IDELBA1: return idereg.lba1;
365 case IDELBA2: return idereg.lba2;
366 case IDEDEV: return idereg.device;
368 val = ide_read_status();
371 val = MMIO_READ( EXTDMA, reg );
.